IET Computers & Digital Techniques
Volume 12, Issue 1, January 2018
Volumes & issues:
Volume 12, Issue 1
January 2018
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- Author(s): Amir Fadakar Noghondar ; Midia Reshadi ; Nader Bagherzadeh
- Source: IET Computers & Digital Techniques, Volume 12, Issue 1, p. 1 –8
- DOI: 10.1049/iet-cdt.2016.0161
- Type: Article
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In the movement from a multi-core to a many-core era, cores count on the chip increases quickly thus interconnect plays a large role in achieving the desired performance. Network-on-chip (NoC) is the most widely used interconnect as a scalable alternative for traditional shared bus in many-core chips. As the dimensions of mesh-based NoC increase, routers and links serve as a major part to achieve the desired performance and low-latency communication between cores. In this study, the authors propose an arbitration mechanism for NoC that leads to a reduction in congestion delay in routers as well as the network latency. The proposed mechanism is compatible with the bypass and baseline pipeline in routers. System simulations with Noxim demonstrate reduction in latencies and power consumption using different routing algorithms for 4×4,8×8 and 16×16 mesh topologies, as compared with a baseline router.
- Author(s): Govinda Rao Locharla ; Kamala Kanta Mahapatra ; Samit Ari
- Source: IET Computers & Digital Techniques, Volume 12, Issue 1, p. 9 –19
- DOI: 10.1049/iet-cdt.2017.0018
- Type: Article
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This study presents a variable length multi-path delay commutator fast Fourier transform (FFT)/inverse FFT (IFFT) architecture for a multiple input multiple output orthogonal frequency division multiplexing system. It supports the FFT/ IFFT lengths of 512/256/128/64 samples to process each symbol carried by eight spatial streams and achieves a speed of 160 MHz to meet the IEEE 802.11ac timing requirements. A resource scheduling methodology to minimise the hardware complexity of the design is proposed and adopted in the architecture presented. A novel stagger word length strategy is also proposed and applied to achieve the better accuracy with lesser hardware. Here, the signal to quantisation noise ratio of 57.23 dB is obtained. The twiddle coefficient storage space is significantly compressed to achieve the coefficient generation with reduced hardware. The design is implemented using the TSMC-65 nm complementary metal oxide semiconductor technology with a supply voltage of 1 V at 160 MHz. The implementation results show that the architecture has a gate count of 3,48,013 with power consumption of 105.1 mW and area of 0.492 mm2. The hardware complexity and performance of the design are compared with earlier reported architectures. It is observed that the proposed design achieves better performance in terms of hardware complexity and normalised energy for the given specifications.
- Author(s): Hao Zhang ; Dongdong Chen ; Seok-Bum Ko
- Source: IET Computers & Digital Techniques, Volume 12, Issue 1, p. 20 –29
- DOI: 10.1049/iet-cdt.2016.0200
- Type: Article
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A high performance and energy efficient single-precision and double-precision merged floating-point adder based on the two-path FP addition algorithm designed and implemented on field programmable gate array (FPGA) is presented. With a fully pipelined architecture, the proposed adder can accomplish one double-precision addition or two parallel single-precision additions in six clock cycles. The proposed architecture is designed based on the double-precision adder and each major component is segmented to support dual single-precision operations. In addition, all the components of the proposed adder are optimised for mapping on FPGA. The proposed architecture is implemented on both Altera Stratix-III and Xilinx Virtex-5 devices and it has a faster clock frequency when compared with the double-precision intellectual property (IP) core adder provided by the FPGA vendors. Since the dual single-precision operations support, the proposed adder has higher throughput compared with the single-precision IP core adder. In addition, the proposed adder has better energy efficiency compared with both single-precision and double-precision IP core adder. The implementation results of the proposed adder on the latest Altera Arria-10 and Xilinx Virtex-7 devices are provided. A direct implementation of the proposed architecture on STM-90 nm technology ASIC platform is also performed.
- Author(s): Sarzamin Khan ; Sheraz Anjum ; Usman Ali Gulzari ; Frank Sill Torres
- Source: IET Computers & Digital Techniques, Volume 12, Issue 1, p. 30 –38
- DOI: 10.1049/iet-cdt.2017.0068
- Type: Article
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Network-on-chip (NoC) is a reliable and scalable communication paradigm deemed as an alternative to classic bus systems in modern systems-on-chip designs. Consequently, one can observe extensive multidimensional research related to the design and implementation of NoC-based systems. A basic requirement for most of these activities is the availability of NoC simulators that enable the study and comparison of different technologies. This study targets the analysis of different NoC simulators and highlights its contributions towards NoC research. Various NoC tools such as NoCTweak, Noxim, Nirgam, Nostrum, BookSim, WormSim, NOCMAP and ORION are evaluated and their strengths and weaknesses are highlighted. The comparative analysis includes methods for estimation of latency, throughput and energy consumption. Further, the exemplary real world application, video object plane decoder is mapped on a 2D mesh NoC using different mapping algorithms under NOCMAP and NoCTweak simulators for comparative analysis of the NoC simulators and their embedded mapping algorithms.
Reducing bypass-based network-on-chip latency using priority mechanism
Variable length mixed radix MDC FFT/IFFT processor for MIMO-OFDM application
High performance and energy efficient single-precision and double-precision merged floating-point adder on FPGA
Comparative analysis of network-on-chip simulation tools
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